Numerical study of gas-liquid two-phase flow and noise characteristics for a water injection launching concentric canister launcher

摘要

In view of the poor thermodynamic environment problem of the self-powered launch of land-based concentric canister launcher (CCL), the launching scheme of injecting water at the bottom of launching tube is adopted to improve the thermodynamic environment of the launching system fundamentally. The solution program for liquid water vaporization is compiled and embedded into the homogeneous gas-liquid two-phase flow model, the source phase corrections of the momentum equation and the energy equation are also performed, and then the three-dimensional gas-liquid two-phase fluid dynamics model is established for the land-based CCL; analysis shows that the improvement of the thermal environment of the 35 degrees and 45 degrees water injection schemes is more better among these schemes. So coupling the mixture model, vaporization program and FW-H (Ffowcs Williams Hawkings) noise model, the noise distribution law in the bottom of the launcher cube for 35 and 45 water injection angles is discussed; in the intermediate frequency range, the -45 degrees water injection scheme is about 2-10 dB higher than the noise signal of the -30 degrees water injection scheme. Finally, it is recommended to optimize the overall thermal environment of the CCL by using the -30 degrees preferred water injection scheme with both cooling effect and noise control.